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Randomized benchmarking and process tomography for gate errors in a solid-state qubit

Mesoscale and Nanoscale Physics 2009-03-08 v1 Superconductivity Quantum Physics
Authors: J. M. Chow , J. M. Gambetta , L. Tornberg , Jens Koch , Lev S. Bishop , A. A. Houck , B. R. Johnson , L. Frunzio , S. M. Girvin , R. J. Schoelkopf
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Abstract

We present measurements of single-qubit gate errors for a superconducting qubit. Results from quantum process tomography and randomized benchmarking are compared with gate errors obtained from a double pi pulse experiment. Randomized benchmarking reveals a minimum average gate error of 1.1+/-0.3% and a simple exponential dependence of fidelity on the number of gates. It shows that the limits on gate fidelity are primarily imposed by qubit decoherence, in agreement with theory.

Keywords

randomized benchmarking quantum gates and qubits fault-tolerant quantum computation

Cite

@article{arxiv.0811.4387,
  title  = {Randomized benchmarking and process tomography for gate errors in a solid-state qubit},
  author = {J. M. Chow and J. M. Gambetta and L. Tornberg and Jens Koch and Lev S. Bishop and A. A. Houck and B. R. Johnson and L. Frunzio and S. M. Girvin and R. J. Schoelkopf},
  journal= {arXiv preprint arXiv:0811.4387},
  year   = {2009}
}

Comments

4 pages, 4 figures, plus supplementary material

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